U.S. patent number 9,764,880 [Application Number 15/017,119] was granted by the patent office on 2017-09-19 for hopper cover.
This patent grant is currently assigned to The Vollrath Company, L.L.C.. The grantee listed for this patent is The Vollrath Company, L.L.C.. Invention is credited to Jill Hundley, Richard Koehl, Ken Wetenkamp.
United States Patent |
9,764,880 |
Hundley , et al. |
September 19, 2017 |
Hopper cover
Abstract
A hopper cover for a dispensing machine includes an exterior
side having an exterior surface and an interior side having an
interior surface that defines a plurality of recesses. The
plurality of recesses are configured to receive a plurality of
components of the dispensing machine. Each recess of the plurality
of recesses corresponds with a specific component of the plurality
of components. The hopper cover is configured to cover a hopper
cavity of the dispensing machine when in a first orientation and
facilitate organized disassembly and reassembly of the dispensing
machine when in a second orientation.
Inventors: |
Hundley; Jill (Sheboygan,
WI), Koehl; Richard (Sheboygan Falls, WI), Wetenkamp;
Ken (Plymouth, WI) |
Applicant: |
Name |
City |
State |
Country |
Type |
The Vollrath Company, L.L.C. |
Sheboygan |
WI |
US |
|
|
Assignee: |
The Vollrath Company, L.L.C.
(Sheboygan, WI)
|
Family
ID: |
59497400 |
Appl.
No.: |
15/017,119 |
Filed: |
February 5, 2016 |
Prior Publication Data
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Document
Identifier |
Publication Date |
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US 20170225853 A1 |
Aug 10, 2017 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A23G
9/22 (20130101); A47J 31/4407 (20130101); A23G
9/30 (20130101) |
Current International
Class: |
B65D
51/02 (20060101); B65D 43/02 (20060101); B65D
1/36 (20060101); B65D 25/24 (20060101); B65D
25/28 (20060101) |
Field of
Search: |
;220/521,522,507,212,628,555,553 ;222/173,146.6,130 |
References Cited
[Referenced By]
U.S. Patent Documents
Foreign Patent Documents
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2 279 233 |
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Jan 1995 |
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GB |
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WO 2015/038360 |
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Mar 2015 |
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WO |
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Other References
Search Report and Written Opinion for International Application No.
PCT/2017/015823, dated Jun. 2, 2017, 9 pages. cited by
applicant.
|
Primary Examiner: Hicks; Robert J
Attorney, Agent or Firm: Foley & Lardner LLP
Claims
What is claimed is:
1. A hopper cover for a dispensing machine, comprising: an exterior
side having an exterior surface defining a handle that facilitates
lifting the hopper cover from the exterior side; and an interior
side having an interior surface that defines a plurality of
recesses, the plurality of recesses configured to receive a
plurality of components of the dispensing machine, wherein each
recess of the plurality of recesses corresponds with a specific
component of the plurality of components; wherein the hopper cover
is configured to cover a hopper cavity of the dispensing machine
when in a first orientation; and wherein the hopper cover is
configured to facilitate organized disassembly and reassembly of
the dispensing machine when in a second orientation.
2. The hopper cover of claim 1, further comprising a rim extending
around a periphery of the hopper cover.
3. The hopper cover of claim 2, wherein the rim is configured to
interact with a retaining structure positioned around a periphery
of the hopper cavity to prevent the hopper cover from inadvertently
moving.
4. The hopper cover of claim 2, wherein the rim extends past the
interior surface of the interior side such that the interior
surface is recessed relative to an edge of the rim.
5. The hopper cover of claim 1, wherein the exterior surface
includes a plurality of surfaces that extend at an angle from the
handle to a periphery of the hopper cover.
6. A hopper cover for a dispensing machine, comprising: an exterior
side having an exterior surface and including a plurality of feet
extending from the exterior surface; and an interior side having an
interior surface that defines a plurality of recesses, the
plurality of recesses configured to receive a plurality of
components of the dispensing machine, wherein each recess of the
plurality of recesses corresponds with a specific component of the
plurality of components; wherein the hopper cover is configured to
cover a hopper cavity of the dispensing machine when in a first
orientation; and wherein the hopper cover is configured to
facilitate organized disassembly and reassembly of the dispensing
machine when in a second orientation.
7. The hopper cover of claim 6, wherein the plurality of feet are
positioned about the exterior surface to fit within the hopper
cavity when the hopper cover is in the second orientation.
8. The hopper cover of claim 7, wherein the plurality of feet
include a first face configured to abut an inner wall of the hopper
cavity and a second face configured to rest on a top edge of the
hopper cavity when the plurality of feet are disposed within the
hopper cavity.
9. The hopper cover of claim 6, wherein the plurality of feet are
structured to elevate the exterior surface of the hopper cover
above a surface when the plurality of feet are resting upon the
surface.
10. A cover for a dispensing machine, comprising: a first side
including a plurality of feet, the plurality of feet having a face
shaped to correspond with at least one of a ledge and an interior
surface of an opening of the dispensing machine; an opposing second
side including a surface; and an extension structure positioned
around a periphery of the cover and extending past the surface of
the opposing second side, defining a cavity therebetween.
11. The cover of claim 10, wherein the surface of the opposing
second side defines a plurality of depressions configured to
receive a plurality of components of the dispensing machine such
that the plurality of components are disposed within the cavity,
wherein each depression of the plurality of depressions corresponds
with a specific component of the dispensing machine.
12. The cover of claim 11, wherein the surface of the opposing
second side includes a plurality of indicia, wherein one of the
plurality of indicia is positioned at least one of near and within
each of the plurality of depressions, and wherein each of the
plurality of indicia identify one of the plurality of components
that is received within each of the plurality of depressions.
13. The cover of claim 10, wherein the extension structure forms a
wall around the cavity.
14. The cover of claim 10, wherein the cover is configured to
extend over the opening of the dispensing machine.
15. The cover of claim 14, wherein the first side includes a handle
that facilitates lifting the cover off of the dispensing machine
when the cover is positioned over the opening.
16. The cover of claim 14, wherein the extension structure is
configured to engage a lip positioned around a periphery of the
opening of the dispensing machine when the cover is positioned over
the opening.
17. The cover of claim 10, wherein the cover is configured to
facilitate organized disassembly and reassembly of the dispensing
machine during at least one of maintenance, repair, and cleaning of
the dispensing machine.
Description
BACKGROUND
Dispensing machines, such as frozen treat (e.g., frozen yogurt,
ice-cream, custard, slushie, etc.) dispensing machines, require
cleaning and periodic maintenance and/or repair. Disassembly of
such dispensing machines may be a messy process and it may be
difficult to keep track of all of the components removed from the
dispensing machine. Often, some components are left within the
dispensing machine and do not get cleaned or some components are
not reinstalled onto the machine, thereby affecting the performance
of the dispensing machine and/or the quality of the frozen treat.
Also, regular maintenance may require the replacement of certain
components (e.g., wear components).
SUMMARY
One exemplary embodiment relates to a hopper cover for a dispensing
machine. The hopper cover includes an exterior side having an
exterior surface and an interior side having an interior surface
that defines a plurality of recesses. The plurality of recesses are
configured to receive a plurality of components of the dispensing
machine. Each recess of the plurality of recesses corresponds with
a specific component of the plurality of components. According to
an exemplary embodiment, the hopper cover is configured to cover a
hopper cavity of the dispensing machine when in a first orientation
and facilitate organized disassembly and reassembly of the
dispensing machine when in a second orientation.
Another exemplary embodiment relates to a cover for a dispensing
machine. The cover includes a first side including a plurality of
feet, an opposing second side including a surface, and an extension
structure positioned around a periphery of the cover and extending
past the surface of the opposing second side, defining a cavity
therebetween. According to an exemplary embodiment, the plurality
of feet have a face shaped to correspond with at least one of a
ledge and an interior surface of an opening of the dispensing
machine.
Still another embodiment relates to a hopper cover for a dispensing
machine. The hopper cover includes a first side and an opposing
second side defining a plurality of recesses. The hopper cover is
configured to extend over a hopper of the dispensing machine. The
plurality of recesses are configured to receive a plurality of
components of the dispensing machine during disassembly of the
dispensing machine.
The invention is capable of other embodiments and of being carried
out in various ways. Alternative exemplary embodiments relate to
other features and combinations of features as may be recited in
the claims.
BRIEF DESCRIPTION OF THE DRAWINGS
The disclosure will become more fully understood from the following
detailed description, taken in conjunction with the accompanying
figures, wherein like reference numerals refer to like elements, in
which:
FIG. 1 is a perspective view of a two-barrel dispensing machine,
according to an exemplary embodiment;
FIG. 2 is an exploded perspective view of the two-barrel dispensing
machine of FIG. 1, according to an exemplary embodiment;
FIG. 3 is a perspective view of the two-barrel dispensing machine
of FIG. 1 including hopper covers, according to an exemplary
embodiment;
FIGS. 4A-4G are various views of a hopper cover, according to an
exemplary embodiment;
FIGS. 5A-5B are various views of a hopper cover, according to
another exemplary embodiment; and
FIG. 6 is a flow diagram of a method for performing maintenance on
and/or cleaning of a dispensing machine and/or a barrel assembly of
the dispensing machine with the assistance of a hopper cover,
according to an exemplary embodiment.
DETAILED DESCRIPTION
Before turning to the figures, which illustrate the exemplary
embodiments in detail, it should be understood that the present
application is not limited to the details or methodology set forth
in the description or illustrated in the figures. It should also be
understood that the terminology is for the purpose of description
only and should not be regarded as limiting.
According to an exemplary embodiment, a multi-functional cover is
used with a dispensing machine (e.g., a frozen yogurt dispensing
machine, etc.) to assist, sort, track, and/or organize the
disassembly, cleaning, and assembly of the dispensing machine. The
cover is configured to extend across (e.g., fit over, cover, etc.)
a hopper opening or cavity that provides access to the interior of
a hopper for the dispensing machine. When placed in position over
the hopper opening, the cover has an interior side (e.g., a side
facing the inside of the dispensing machine, etc.) and an exterior
side (e.g., a side facing the outside of the machine, the exterior
environment, etc.). In one embodiment, the exterior side of the
cover defines recesses that provide a handle or grip for lifting
and handling the cover. In some embodiments, the exterior side of
the cover includes legs extending therefrom such that the cover may
stand on the legs when the exterior side is oriented downwards
(e.g., the exterior side faces a surface such as a table or
counter, etc.). According to an exemplary embodiment, the interior
side of the cover defines various recesses shaped to receive
various removable parts of the dispensing machine and/or tools used
with the dispensing machine. Thus, when the cover is removed from
the hopper opening and oriented with the interior side up, an
individual part or tool may be removed from the dispensing machine
and placed in the corresponding recess of the cover. The recesses
may help to secure the parts in the cover. The recesses may also
serve as a guide or indicator of which parts need to be removed
and/or replaced and whether the disassembly or re-assembly is
complete (e.g., provide an indication of which parts remain in the
dispensing machine to be removed, to be reinstalled, etc.). After
the dispensing machine is disassembled, the cover and parts may be
taken to a cleaning area for cleaning. The cover thereby provides
an organizational tool for use when cleaning, maintaining, and/or
repairing the dispensing machine.
According to the exemplary embodiment shown in FIGS. 1-4G, a
multi-functional cover, shown as hopper cover 100, is used with a
dispensing machine, shown as dispensing machine 10, to assist,
sort, track, and/or organize the disassembly, cleaning, and
assembly of the dispensing machine 10. According to the exemplary
embodiment shown in FIGS. 1-3, the dispensing machine 10 is a
multi-barrel (e.g., a two-barrel, etc.) frozen yogurt dispensing
machine configured to dispense multiple types of frozen yogurt
(e.g., a first flavor, a second flavor, a swirl or combination
flavor, etc.). In other embodiments, the dispensing machine 10 is a
single-barrel frozen yogurt dispensing machine. In still other
embodiments, the dispensing machine 10 is another type of
dispensing machine (e.g., a frozen treat dispensing machine, an
ice-cream dispensing machine, a custard dispensing machine, a
slushie machine, etc.) configured to dispense something other than
frozen yogurt (e.g., ice-cream, custard, slushie, etc.).
As shown in FIGS. 1-3, the dispensing machine 10 includes a main
body, shown as body 12, a first surface, shown as top surface 14,
and a second surface, shown as front surface 20. The top surface 14
defines a plurality of openings or cavities, shown as hopper
cavities 16, that provide access to an interior of the body 12 of
the dispensing machine 10. According to an exemplary embodiment,
the hopper cavities 16 facilitate pouring a frozen treat mixture, a
frozen yogurt mixture, an ice-cream mixture, a frozen custard
mixture, a slushie mixture, and/or another type of mixture into the
dispensing machine 10. As shown in FIGS. 1-3, the hopper cavities
16 have an inner, peripheral wall, shown as hopper wall 19, and a
retaining structure, shown as lip 18, extending outward from the
top surface 14 and around the hopper wall 19 of each hopper cavity
16. In other embodiments, the lip 18 is a depression defined by the
top surface 14 that extends around the hopper wall 19 of each
hopper cavity 16. In alternate embodiments, the lip 18 is omitted
(e.g., another type of retaining structure may be included,
etc.).
As shown in FIGS. 1-3, the dispensing machine 10 includes a
dispensing system, shown as dispensing system 30. According to an
exemplary embodiment, the dispensing system 30 allows a user (e.g.,
customer, worker, etc.) to dispense a frozen treat, frozen yogurt,
ice-cream, frozen custard, a slushie, and/or the like from the
dispensing machine 10. A shown in FIGS. 1-3, the dispensing system
30 includes a cover, shown as front door 32, that defines a
plurality of apertures, shown as through-holes 36. According to an
exemplary embodiment, the front door 32 is selectively attached
(e.g., coupled, fastened, etc.) to the front surface 20 of the
dispensing machine 10. As shown in FIGS. 1-3, the dispensing system
30 includes levers, shown as dispensing handles 34, that allow a
user to activate the dispensing feature of the dispensing machine
10 (e.g., through manual actuation of the dispensing handles 34,
etc.). In other embodiments, the dispensing feature of the
dispensing machine 10 is otherwise activated (e.g., with
push-buttons, automatically activated based on sensing a cup, bowl,
or cone positioned beneath the dispensing system 30, etc.).
As shown in FIG. 2, the front surface 20 defines a plurality of
apertures, shown as barrel cylinders 22. According to an exemplary
embodiment, the number of barrel cylinders 22 corresponds with the
number of hopper cavities 16. As shown in FIG. 2, the dispensing
system 30 includes a plurality of barrel assemblies, shown as auger
assemblies 40. According to an exemplary embodiment, the number of
auger assemblies 40 corresponds with the number of barrel cylinders
22. As shown in FIG. 2, each barrel cylinder 22 is configured to
receive one of the auger assemblies 40. According to an exemplary
embodiment, the auger assemblies 40 are configured to rotate within
the barrel cylinders 22 to mix the mixtures poured into the
dispensing machine 10 via the hopper cavities 16.
As shown in FIG. 2, the auger assemblies 40 include a plurality of
components or parts including a shaft, shown as auger shaft 42;
scrapers, shown as flights 44; resilient members, shown as springs
46; a support, shown as front support 48; a bushing, shown as front
bushing 50; an O-ring, shown as auger O-ring 52; a seal, shown as
rear seal 54; first valves, shown as valves 56, with corresponding
O-rings, shown as valve O-rings 58; and a second valve, shown as
center valve 60, with corresponding O-rings, shown as valve O-ring
62 and valve O-rings 64. The flights 44 are configured to couple to
the auger shaft 42 and scrape the peripheral wall of the respective
barrel cylinder 22. The springs 46 are configured to keep pressure
between the flights 44 and the peripheral wall of the barrel
cylinder 22 to aid in the scraping of the peripheral wall. The
front bushing 50 is configured to couple the front support 48 to
the auger shaft 42, and the front support 48 is configured to
center the auger shaft 42 and the components attached thereto
within the barrel cylinder 22. The auger O-ring 52 and the rear
seal 54 press against the back of the barrel cylinder 22 to seal
the auger assembly 40 within barrel cylinder 22.
According to an exemplary embodiment, the valves 56 and the center
valve 60 are disposed within the through-holes 36 of the front door
32. The valve O-rings 58, 62, and 64 form a valve seal between the
through-holes 36 and the valves 56 and the center valve 60,
respectively. The valves 56 and the center valve 60 are coupled to
the dispensing handles 34. The valves 56 and the center valve 60
are configured to control the flow of the mixture out of the
dispensing machine 10, according to an exemplary embodiment. By way
of example, one of the valves 56 may control the flow of mixture
out of a first hopper cavity 16, the other of the valves 56 may
control the flow of mixture out of a second hopper cavity 16, and
the center valve 60 may control the flow of mixture out of both the
first and the second hopper cavities 16 (e.g., a combination or
swirl, etc.).
As shown in FIGS. 1-3, the dispensing machine 10 further includes a
user interface, shown as user interface 90. In one embodiment, the
user interface 90 includes a display and an operator input. The
display may be configured to display a graphical user interface, an
image, an icon, or still other information. In one embodiment, the
display includes a graphical user interface configured to provide
general information about the dispensing machine 10 (e.g., mixture
levels, mixture temperature, etc.). The graphical user interface
may also be configured to display an indication that the dispensing
system 30 is due for cleaning, maintenance, and/or repair. The
operator input may be used by an operator to provide commands to
the dispensing machine 10 (e.g., a desired temperature of the
mixture, etc.). The operator input may include one or more buttons,
knobs, touchscreens, switches, levers, joysticks, pedals, and/or
handles. The operator may be able to manually control some or all
aspects of the operation of dispensing machine 10 using the display
and the operator input.
As shown in FIG. 3, the hopper cover 100 is capable of being
selectively oriented into one of a first orientation, shown as
cover orientation 102, and a second orientation, shown as
disassembly orientation 104. As shown in FIGS. 3-4G, the hopper
cover 100 includes a first side, shown as exterior side 106; an
opposing second side, shown as interior side 108; an extension
member, shown as rim 140, extending around the periphery of the
hopper cover 100; and a plurality of legs, shown as feet 150. As
shown in FIG. 3, the hopper cover 100 is configured to extend
across (e.g., fit over, etc.) the hopper cavity 16. As shown in
FIGS. 3-4G, the hopper cover 100 is substantially rectangular in
shape. In other embodiments, the hopper cover 100 is otherwise
shaped (e.g., circular, oval, square, etc.). According to an
exemplary embodiment, the hopper cover 100 is shaped to correspond
with the shape of the hopper cavity 16, the hopper wall 19, and/or
the lip 18.
As shown in FIG. 3, the interior side 108 of the hopper cover 100
faces inside of the hopper cavity 16 with the rim 140 engaging the
lip 18, thereby covering the hopper cavity 16 when the hopper cover
100 is positioned over the hopper cavity 16 while in the cover
orientation 102. According to an exemplary embodiment, the
interaction between the lip 18 and the rim 140 prevents the hopper
cover 100 from inadvertently moving (e.g., sliding, falling off of
the top surface 14, etc.) when positioned over the hopper cavity 16
in the cover orientation 102. In some embodiments, the rim 140
and/or another portion of the hopper cover 100 engages with another
retaining structure (e.g., latches, fasteners, clips, etc.) to
prevent inadvertent movement of the hopper cover 100 when
positioned over the hopper cavity 16 in the cover orientation 102.
In some embodiments, the rim 140 is omitted.
As shown in FIG. 3, the exterior side 106 of the hopper cover 100
faces inside of the hopper cavity 16 with the feet 150 extending
therein and engaging with at least one of the lip 18 and the hopper
wall 19, thereby facilitating organized disassembly and reassembly
of the dispensing machine 10 (e.g., during cleaning, maintenance,
and/or repair of the dispensing machine 10, etc.) when the hopper
cover 100 is positioned over the hopper cavity 16 while in the
disassembly orientation 104. According to an exemplary embodiment,
the interaction between the lip 18, the hopper wall 19, and/or the
feet 150 prevents the hopper cover 100 from inadvertently moving
(e.g., sliding, falling off of the top surface 14, etc.) when
positioned over the hopper cavity 16 in the disassembly orientation
104. In some embodiments, the feet 150 and/or another portion of
the hopper cover 100 engages with another retaining structure
(e.g., latches, fasteners, clips, etc.) to prevent inadvertent
movement of the hopper cover 100 when positioned over the hopper
cavity 16 in the disassembly orientation 104.
As shown in FIGS. 4A-4D, the exterior side 106 of the hopper cover
100 has a surface, shown as exterior surface 110. As shown in FIGS.
4A and 4C-4D, the exterior surface 110 defines a centrally located
handle portion, shown as handle portion 120. In other embodiments,
the handle portion 120 is otherwise positioned about the exterior
surface 110 (e.g., along each lateral edge, along each longitudinal
edge, etc.). As shown in FIGS. 4A-4B and 4D, the handle portion 120
includes a pair of recesses, shown as handle recesses 122, and a
grip, shown as handle grip 124. According to an exemplary
embodiment, the handle recesses 122 and the handle grip 124
cooperatively facilitate lifting and handling the hopper cover 100
from the exterior side 106 (e.g., lifting the hopper cover 100 off
of the dispensing machine 10 when the hopper cover 100 is
positioned over the hopper cavity 16, etc.).
As shown in FIGS. 4A-4D, the exterior side 106 of the hopper cover
100 includes an edge, shown as peripheral edge 130, that extends
around the periphery of the hopper cover 100. The peripheral edge
130 is defined by a first lateral edge, shown as front edge 132, a
second lateral edge, shown as rear edge 134, a first longitudinal
edge, shown as left edge 136, and a second longitudinal edge, shown
as right edge 138. As shown in FIGS. 4A-4G, the rim 140 is
positioned around peripheral edge 130 and extends therefrom. The
rim 140 is defined by a first lateral portion, shown as front rim
portion 142, a second lateral portion, shown as rear rim portion
144, a first longitudinal portion, shown as left rim portion 146,
and a second longitudinal portion, shown as right rim portion 148.
According to an exemplary embodiment, the front rim portion 142,
the rear rim portion 144, the left rim portion 146, and the right
rim portion 148 have a uniform height (e.g., the rim 140 has a flat
edge, etc.). In other embodiments, at least one of the front rim
portion 142, the rear rim portion 144, the left rim portion 146,
and the right rim portion 148 have a different height (e.g.,
defining a notched shape in the rim 140, etc.) and/or a non-flat
edge (e.g., wavy, dome-shaped, etc.). In alternative embodiments,
at least one of the front rim portion 142, the rear rim portion
144, the left rim portion 146, and the right rim portion 148 are
omitted.
As shown in FIGS. 4A-4D, the exterior surface 110 includes a first
surface, shown as front surface 112, a second surface, shown as
rear surface 114, a third surface, shown as left surface 116, and a
fourth surface, shown as right surface 118. According to the
exemplary embodiment shown in FIGS. 4A-4D, the front surface 112,
the rear surface 114, the left surface 116, and the right surface
118 extend linearly at angle from the handle portion 120 to the
front edge 132, the rear edge 134, the left edge 136, and the right
edge 138 of the peripheral edge 130, respectively (e.g., the handle
portion 120 is offset relative to the peripheral edge 130, etc.).
The angled configuration of the front surface 112, the rear surface
114, the left surface 116, and/or the right surface 118 provides a
run-off capability of the hopper cover 100 (e.g., for condensation,
spilt mixture, etc.). In other embodiments, at least one of the
front surface 112, the rear surface 114, the left surface 116, and
the right surface 118 are flat (e.g., the handle portion 120 is
coplanar or aligned with the peripheral edge 130, etc.). In still
other embodiments, at least one of the front surface 112, the rear
surface 114, the left surface 116, and the right surface 118 extend
non-linearly (e.g., curved, dome-shaped, etc.) from the handle
portion 120 to the front edge 132, the rear edge 134, the left edge
136, and the right edge 138 of the peripheral edge 130,
respectively.
As shown in FIGS. 4A-4D, the feet 150 extend from the exterior
surface 110. According to the exemplary embodiment shown in FIGS.
4A-4D, the feet 150 are positioned at each corner of the exterior
side 106 of the hopper cover 100. In other embodiments, the feet
150 form a single, continuous base or foot that extends around the
peripheral edge 130. In still other embodiments, the exterior side
106 includes feet 150, additionally or alternatively, positioned
along at least one of the front edge 132, the rear edge 134, the
left edge 136, and the right edge 138 (e.g., not at the corners,
etc.). In an alternative embodiment, the feet 150 are omitted.
As shown in FIGS. 4A-4D, the feet 150 include a first face, shown
as bottom surface 152, a second face, shown as first interaction
surface 154, a third face, shown as second interaction surface 156,
and a fourth face, shown as rear surface 158. According to an
exemplary embodiment, the bottom surface 152 of the feet 150 is
flat and configured to rest upon a surface such as a counter,
table, or the like. As shown in FIGS. 4A and 4C-4D, first
interaction surface 154 and the rear surface 158 offset the bottom
surface 152 from the exterior surface 110 and the second
interaction surface 156. According to an exemplary embodiment, the
hopper cover 100 may stand on the feet 150 when the exterior side
106 is oriented downwards (e.g., the exterior side 106 faces a
surface such as a table or counter, the hopper cover 100 is in
oriented in the disassembly orientation 104, etc.). The feet 150
may thereby elevate the exterior surface 110 of the hopper cover
100 above a surface when the bottom surfaces 152 of the feet 150
are resting upon the surface.
As shown in FIG. 3, the feet 150 are positioned about the exterior
surface 110 of the hopper cover 100 to fit within the hopper cavity
16 when the hopper cover 100 is oriented in the disassembly
orientation 104. According to an exemplary embodiment, the first
interaction surfaces 154 of the feet 150 are shaped to correspond
with the shape of the hopper wall 19. The first interaction
surfaces 154 of the feet 150 may thereby be configured to abut the
hopper wall 19 of the hopper cavity 16 when the feet 150 are
disposed within the hopper cavity 16. According to an exemplary
embodiment, the second interaction surfaces 156 of the feet 150 are
configured to rest on the lip 18 of the hopper cavity 16 when the
feet 150 are disposed within the hopper cavity 16. In some
embodiments, at least one of the first interaction surface 154 and
the second interaction surface 156 of the feet 150 are shaped to
correspond with the lip 18 and/or the hopper wall 19 of the hopper
cavity 16 of the dispensing machine 10.
As shown in FIGS. 4E-4G, the interior side 108 of the hopper cover
100 has a surface, shown as interior surface 160. As shown in FIGS.
4E and 4G, the rim 140 extends past the interior surface 160 of the
interior side 108 such that the interior surface 160 is recessed
relative to an edge (e.g., the outermost portion, etc.) of the rim
140. According to an exemplary embodiment, the rim 140 forms a wall
extending around the periphery of the interior surface 160,
defining a cavity therebetween, shown as recess 162. In some
embodiments, the interior face of the wall of the rim 140 extends
at an angle from the interior surface 160 (e.g., linearly, etc.).
In some embodiments, the interior face of the wall of the rim 140
extends normal (i.e., perpendicular) to the interior surface 160.
In some embodiments, the interior face of the wall of the rim 140
is curved or otherwise shaped (e.g., non-linear, etc.).
As shown in FIGS. 4E-4G, the interior surface 160 defines a
plurality of recesses, shown as depressions 164-186. According to
an exemplary embodiment, the depressions 164-186 are configured to
receive a plurality of components of the dispensing machine 10.
Each of the depressions 164-186 may corresponds with a specific
component of the plurality of components of the dispensing machine
10. As shown in FIGS. 3 and 4G, the depressions 164-186 are shaped
to receive a plurality of components of the dispensing system 30
and/or the auger assembly 40 of the dispensing machine 10 such that
the plurality of components are disposed within the recess 162.
More specifically, as shown in FIGS. 4E-4G, the depressions 164 are
shaped to receive the flights 44; the depression 166 are shaped to
receive the springs 46; the depression 168 is shaped to receive the
front support 48; the depression 170 is shaped to receive the front
bushing 50; the depression 172 is shaped to receive the auger
O-ring 52; the depression 174 is shaped to receive the rear seal
54; the depressions 176 and the depressions 178 are shaped to
receive one of the valves 56 and the corresponding valve O-rings
58, respectively; the depressions 180, the depression 182, and the
depressions 184 are shaped to receive the center valve 60 and the
corresponding valve O-ring 62 and valve O-rings 64, respectively;
and the depression 186 is shaped to receive an O-ring, shown as
front door seal 66. In some embodiments, the interior surface 160
defines more or fewer recesses or depressions to receive more
components (e.g., the auger shaft 42, the front door 32, etc.) or
fewer components of the dispensing machine 10. In an alternative
embodiment, the interior surface 160 is flat (e.g., does not define
the depressions 164-186, etc.).
According to an exemplary embodiment, recessing interior surface
160 prevents the mixture (e.g., frozen yogurt mixture on the
removed components, etc.) that may drip from the components of the
dispensing machine 10 from sliding off of the interior surface 160
during transport and/or cleaning. According to an exemplary
embodiment, the interior surface 160 having individual depressions
for each respective component provides a securing feature. For
example, the depressions 164-186 may help to secure the components
of the dispensing machine 10 within the recess 162 of the hopper
cover 100 (e.g., prevent the components from sliding around, etc.).
In another example, the depressions 164-186 may help evenly
distribute the weight of the components across the hopper cover 100
such that the hopper cover 100 is easier to carry and handle while
the components of the dispensing machine 10 are disposed within the
depressions 164-186.
As shown in FIGS. 4E-4F, the interior surface 160 defines a
plurality of indicia, shown as indicia 190, positioned near and/or
within each of the depressions 164-186. According to an exemplary
embodiment, the indicia 190 include an identification number (e.g.,
part number, serial number, etc.) to identify the component that is
received within the respective depression. Each of the indicia 190
may correspond with a specific component of the plurality of
components of the dispensing machine 10. According to an exemplary
embodiment, the interior surface 160 having individual depressions
and/or indicia for each respective component provides a poka-yoke
feature. For example, each of the depressions 164-186 structured to
receive a specific component of the dispensing machine 10 and/or
the indicia 190 may provide an indication of which components are
currently removed and/or installed within the dispensing machine
10. This may help an operator both in assembly and disassembly of
the dispensing machine 10. The hopper cover 100 may thereby provide
an organizational tool for use when cleaning, maintaining, and/or
repairing the dispensing machine 10. In another example, the
indicia 190 may aid an operator in ordering damaged and/or worn
components (e.g., aids in identifying the part number of the
component for ordering purposes, etc.). In some embodiments, the
hopper cover 100 may be provided with respective components of the
dispensing machine 10 as a maintenance kit. For example, the
maintenance kit may include the hopper cover 100 and various wear
components (e.g., the front bushing 50, the O-rings 52, 58, 62, 64,
and/or 66, etc.) to be used in periodic maintenance of the
dispensing machine 10 (e.g., every six months, etc.).
According to the exemplary embodiment shown in FIGS. 5A-5B, a
multi-functional cover, shown as hopper cover 200, is configured to
be used with a dispensing machine (e.g., the dispensing machine 10,
etc.) to assist, sort, track, and/or organize the disassembly,
cleaning, and assembly of the dispensing machine. The structure and
function of the hopper cover 200 may be similar to that of the
hopper cover 100 described above in regards to FIGS. 1-4G. As shown
in FIGS. 5A-5B, the hopper cover 200 includes a first side, shown
as exterior side 206; an opposing second side, shown as interior
side 208; and a plurality of legs, shown as feet 250. According to
the exemplary embodiment, the hopper cover 200 is substantially
rectangular in shape. In other embodiments, the hopper cover 200 is
otherwise shaped (e.g., circular, oval, square, etc.). According to
an exemplary embodiment, the hopper cover 200 is shaped to
correspond with the shape of the hopper cavity 16, the hopper wall
19, and/or the lip 18 of the dispensing machine 10.
As shown in FIG. 5A, the exterior side 206 of the hopper cover 200
has a surface, shown as exterior surface 210. The exterior surface
210 defines a centrally located handle portion, shown as handle
portion 220. In other embodiments, the handle portion 220 is
otherwise positioned about the exterior surface 210 (e.g., along
each lateral edge, along each longitudinal edge, etc.). As shown in
FIG. 5A, the handle portion 220 includes a pair of recesses, shown
as handle recesses 222, and a grip, shown as handle grip 224.
According to an exemplary embodiment, the handle recesses 222 and
the handle grip 224 cooperatively facilitate lifting and handling
the hopper cover 200 from the exterior side 206.
As shown in FIG. 5A, the exterior side 206 of the hopper cover 200
includes an edge, shown as peripheral wall 230, that extends around
the periphery of the hopper cover 200. The peripheral wall 230 is
defined by a first lateral edge, shown as front wall 232, a second
lateral edge, shown as rear wall 234, a first longitudinal edge,
shown as left wall 236, and a second longitudinal edge, shown as
right wall 238. According to an exemplary embodiment, the front
wall 232, the rear wall 234, the left wall 236, and the right wall
238 have a uniform height (e.g., the peripheral wall 230 has a flat
edge, etc.). In other embodiments, at least one of the front wall
232, the rear wall 234, the left wall 236, and the right wall 238
have a different height (e.g., defining a notched shape in the
peripheral wall 230, etc.) and/or a non-flat edge (e.g., wavy,
dome-shaped, etc.). In alternative embodiments, at least one of the
front wall 232, the rear wall 234, the left wall 236, and the right
wall 238 are omitted.
According to an exemplary embodiment, the peripheral wall 230 is
configured to engage the lip 18 of the hopper cavity 16. The
interaction between the lip 18 and the peripheral wall 230 may
prevent the hopper cover 200 from inadvertently moving (e.g.,
sliding, falling off of the top surface 14, etc.) when positioned
over the hopper cavity 16. In some embodiments, the peripheral wall
230 and/or another portion of the hopper cover 200 engages with
another retaining structure (e.g., latches, fasteners, clips, etc.)
to prevent inadvertent movement of the hopper cover 200 when
positioned over the hopper cavity 16.
As shown in FIG. 5A, the exterior surface 210 includes a first
surface, shown as front surface 212, a second surface, shown as
rear surface 214, a third surface, shown as left surface 216, and a
fourth surface, shown as right surface 218. According to the
exemplary embodiment shown in FIG. 5A, the front surface 212, the
rear surface 214, the left surface 216, and the right surface 218
extend linearly at angle from the handle portion 220 to the front
edge 132, the rear edge 134, the left edge 136, and the right edge
138 of the peripheral edge 130, respectively. The angled
configuration of the front surface 212, the rear surface 214, the
left surface 216, and/or the right surface 218 provides a run-off
capability of the hopper cover 200 (e.g., for condensation, spilt
mixture, etc.). In other embodiments, at least one of the front
surface 212, the rear surface 214, the left surface 216, and the
right surface 218 are flat (e.g., the handle portion 220 is
coplanar or aligned with the peripheral wall 230, etc.). In still
other embodiments, at least one of the front surface 212, the rear
surface 214, the left surface 216, and the right surface 218 extend
non-linearly (e.g., curved, dome-shaped, etc.) from the handle
portion 220 to the peripheral wall 230.
As shown in FIG. 5A, the feet 250 extend from the exterior surface
210. According to the exemplary embodiment shown in FIG. 5A, the
feet 250 are positioned at each corner of the exterior side 206 of
the hopper cover 200. In other embodiments, the feet 250 from a
single, continuous base or foot that extends around the peripheral
wall 230. In still other embodiments, the exterior side 206
includes feet 250, additionally or alternatively, positioned along
at least one of the front wall 232, the rear wall 234, the left
wall 236, and the right wall 238 (e.g., not at the corners, etc.).
In an alternative embodiment, the feet 250 are omitted.
As shown in FIG. 5A, the feet 250 include a first face, shown as
bottom surface 252, a second face, shown as first interaction
surface 254, a third face, shown as second interaction surface 256,
and a fourth face, shown as rear surface 258. According to an
exemplary embodiment, the bottom surface 252 of the feet 250 is
flat and configured to rest upon a surface such as a counter,
table, or the like. As shown in FIG. 5A, the first interaction
surface 254 and the rear surface 258 offset the bottom surface 252
from the exterior surface 210 and the second interaction surface
256. According to an exemplary embodiment, the hopper cover 200 may
stand on the feet 250 when the exterior side 206 is oriented
downwards (e.g., the exterior side 206 faces a surface such as a
table or counter, etc.). The feet 250 may thereby elevate the
exterior surface 210 of the hopper cover 200 above a surface when
the bottom surfaces 252 of the feet 250 are resting upon the
surface.
According to an exemplary embodiment, the feet 250 are positioned
about the exterior surface 210 of the hopper cover 200 to fit
within the hopper cavity 16. By way of example, the first
interaction surfaces 254 of the feet 250 may be shaped to
correspond with the shape of the hopper wall 19. The first
interaction surfaces 254 of the feet 250 may thereby be configured
to abut the hopper wall 19 of the hopper cavity 16 when the feet
250 are disposed within the hopper cavity 16. By way of another
example, the second interaction surfaces 256 of the feet 250 may be
configured to rest on the lip 18 of the hopper cavity 16 when the
feet 250 are disposed within the hopper cavity 16. In some
embodiments, at least one of the first interaction surface 254 and
the second interaction surface 256 of the feet 250 are shaped to
correspond with the lip 18 and/or the hopper wall 19 of the hopper
cavity 16 of the dispensing machine 10.
As shown in FIG. 5B, the interior side 208 of the hopper cover 200
has a surface, shown as interior surface 260. As shown in FIG. 5B,
the peripheral wall 230 extends past the interior surface 260 of
the interior side 208 such that the interior surface 260 is
recessed relative to an edge (e.g., the outermost portion, etc.) of
the peripheral wall 230. According to an exemplary embodiment, the
peripheral wall 230 forms a wall extending around the periphery of
the interior surface 260, defining a cavity therebetween, shown as
recess 262. In some embodiments, the interior face of the
peripheral wall 230 extends at an angle from the interior surface
260 (e.g., linearly, etc.). In some embodiments, the interior face
of the peripheral wall 230 extends normal (i.e., perpendicular) to
the interior surface 260. In some embodiments, the interior face of
the peripheral wall 230 is curved or otherwise shaped (e.g.,
non-linear, etc.).
As shown in FIG. 5B, the interior surface 260 defines a plurality
of recesses, shown as depressions 264-286. According to an
exemplary embodiment, the depressions 264-286 are configured to
receive a plurality of components of the dispensing machine 10 such
that the plurality of components are disposed within the recess
262. Each of the depressions 264-286 may corresponds with a
specific component of the plurality of components of the dispensing
machine 10. According to an exemplary embodiment, the interior
surface 260 having individual depressions for each respective
component provides a securing feature. For example, the depressions
264-286 may help to secure the components of the dispensing machine
10 within the recess 262 of the hopper cover 200 (e.g., prevent the
components from sliding around, etc.). In another example, the
depressions 264-286 may help evenly distribute the weight of the
components across the hopper cover 200 such that the hopper cover
200 is easier to carry and handle while the components of the
dispensing machine 10 are disposed within the depressions 264-286.
According to an exemplary embodiment, the interior surface 260
having individual depressions for each respective component
provides a poka-yoke feature. For example, each of the depressions
264-286 being structured to receive a specific component of the
dispensing machine 10 may provide an indication of which components
are currently removed and/or installed within the dispensing
machine 10. This may help an operator both in assembly and
disassembly of the dispensing machine 10. The hopper cover 200 may
thereby provide an organizational tool for use when cleaning,
maintaining, and/or repairing the dispensing machine 10.
According to an exemplary embodiment, the hopper cover 100 and/or
the hopper cover 200 are manufactured using a solid molded
manufacturing process, a blow molded manufacturing process, and/or
an injection molded manufacturing process. In other embodiments,
the hopper cover 100 and/or the hopper cover 200 are otherwise
manufactured (e.g., cast, machined, welded, etc.). According to an
exemplary embodiment, the hopper cover 100 and/or the hopper cover
200 are manufactured from a material that satisfies various Food
and Drug Administration (FDA) requirements for food contact. For
example, the hopper cover 100 and/or the hopper cover 200 may be
manufactured from expanded polypropylene (EPP) and/or Acrylonitrile
Butadiene Styrene (ABS). In other embodiments, the hopper cover 100
and/or the hopper cover 200 are manufactured from another material
(e.g., another plastic material, a metal material, a ceramic
material, a composite material, glass, wood, a rigid material, a
semi-rigid material, a flexible material, etc.). According to an
exemplary embodiment, the exterior surface 110 and/or the interior
surface 160 have a haircell texture. In other embodiments, the
exterior surface 110 and/or the interior surface 160 have another
type of texture (e.g., smooth, bumpy, rough, dimpled, etc.).
Referring now to FIG. 6, a method 600 for performing maintenance on
and/or cleaning of a dispensing machine with the assistance of a
hopper cover is shown according to an example embodiment. Method
600 may correspond with the dispensing machine 10, the hopper cover
100, and/or the hopper cover 200. Accordingly, method 600 may be
described in regard to FIGS. 1-5B.
At step 602, a dispensing machine (e.g., the dispensing machine 10,
a frozen treat dispensing machine, a soft-serve machine, a frozen
yogurt machine, etc.) is provided. At step 604, a hopper cover
(e.g., the hopper cover 100, the hopper cover 200, etc.) is
provided. According to an exemplary embodiment, the hopper cover
includes a plurality of recesses (e.g., the depressions 164-186,
the depressions 264-286, etc.) positioned along (e.g., defined by,
etc.) an interior side (e.g., the interior surface 160 of the
interior side 108, the interior surface 260 of the interior side
208, etc.) of the hopper cover. The plurality of recesses may be
configured (e.g., shaped, etc.) to receive a plurality of
components of a barrel assembly (e.g., the dispensing system 30,
the auger assembly 40, etc.) of the dispensing machine.
At step 606, an operator of the dispensing machine may orient the
hopper cover in a first orientation (e.g., the cover orientation
102, etc.) over a hopper (e.g., the hopper cavity 16, etc.) such
that the plurality of recesses of the interior side are facing into
the hopper. At step 608, the operator of the dispensing machine may
orient the hopper cover in a second orientation (e.g., the
disassembly orientation 104, etc.) such that the plurality of
recesses are accessible. The re-orientation may be in response to
the dispensing machine being due for cleaning, service, and/or
repair. In some instances, the operator may place the hopper cover
over the hopper such that the hopper cover rests on an outer edge
of the hopper (e.g., the second interaction surfaces 156, 256
engage the lip 18, etc.). In other instances, the operator may
place the hopper cover on a flat surface such as a table or counter
such that the hopper cover reset on legs thereof (e.g., the feet
150, the feet 250, etc.).
At step 610, the operator may disassemble to the dispensing machine
(e.g., to clean, maintain, and/or service the machine, etc.). At
step 612, the operator may place each of the plurality of
components of the barrel assembly into a corresponding recess of
the plurality of recess of the hopper cover. According to an
exemplary embodiment, placing each of the plurality of components
of the barrel assembly into a corresponding recess provides an
indication of which components are currently removed and which
components are not removed from the dispensing machine. At step
614, the operator may then perform maintenance and/or cleaning of
the dispensing machine and/or the plurality of components removed
from the dispensing machine. At step 616, the operator may
reassemble the dispensing machine and then place the hopper cover
over the hopper in the first orientation (e.g., until the next
maintenance or cleaning event, until the mixture within the
dispensing machine needs to be refilled, etc.).
The construction and arrangements of the hopper cover, as shown in
the various exemplary embodiments, are illustrative only. Although
only a few embodiments have been described in detail in this
disclosure, many modifications are possible (e.g., variations in
sizes, dimensions, structures, shapes and proportions of the
various elements, values of parameters, mounting arrangements, use
of materials, colors, orientations, etc.) without materially
departing from the novel teachings and advantages of the subject
matter described herein. Some elements shown as integrally formed
may be constructed of multiple parts or elements, the position of
elements may be reversed or otherwise varied, and the nature or
number of discrete elements or positions may be altered or varied.
The order or sequence of any process, logical algorithm, or method
steps may be varied or re-sequenced according to alternative
embodiments. Other substitutions, modifications, changes, and
omissions may also be made in the design, operating conditions and
arrangement of the various exemplary embodiments without departing
from the scope of the present invention.
* * * * *